Reverse genetics screen identifies six proteins important for malaria development in the mosquito
about
secreted ookinete protein, putativesecreted ookinete protein, putativesecreted ookinete protein, putativeLCCL domain-containing protein, putativeLCCL domain-containing protein, putativesecreted ookinete protein, putativeLCCL domain-containing protein, putativeLCCL domain-containing proteinsecreted ookinete protein, putativeLCCL domain-containing protein, putativeLCCL domain-containing protein, putativeLCCL domain-containing protein, putativesecreted ookinete protein, putativesecreted ookinete protein, putativesecreted ookinete protein, putativeLCCL domain-containing protein, putativeLCCL domain-containing protein, putativesecreted ookinete protein, putativeLCCL domain-containing proteinsecreted ookinete protein, putative
P1343
Human perforin employs different avenues to damage membranesSpecies-specific escape of Plasmodium sporozoites from oocysts of avian, rodent, and human malarial parasitesA unique protein phosphatase with kelch-like domains (PPKL) in Plasmodium modulates ookinete differentiation, motility and invasionGenome-Wide Identification of the Target Genes of AP2-O, a Plasmodium AP2-Family Transcription FactorNovel putative glycosylphosphatidylinositol-anchored micronemal antigen of Plasmodium falciparum that binds to erythrocytesCharacterization of Plasmodium developmental transcriptomes in Anopheles gambiae midgut reveals novel regulators of malaria transmissionComparative Proteomics and Functional Analysis Reveal a Role of Plasmodium falciparum Osmiophilic Bodies in Malaria Parasite TransmissionTranslational repression controls temporal expression of the Plasmodium berghei LCCL protein complexThe development of malaria parasites in the mosquito midgutTowards genome-wide experimental genetics in the in vivo malaria model parasite Plasmodium bergheiFunctional characterization of Plasmodium berghei PSOP25 during ookinete development and as a malaria transmission-blocking vaccine candidateA perforin-like protein mediates disruption of the erythrocyte membrane during egress of Plasmodium berghei male gametocytesBiogenesis of the crystalloid organelle in Plasmodium involves microtubule-dependent vesicle transport and assemblyPlasmodium berghei crystalloids contain multiple LCCL proteinsAn ancient protein phosphatase, SHLP1, is critical to microneme development in Plasmodium ookinetes and parasite transmissionPlasmodium P-Type Cyclin CYC3 Modulates Endomitotic Growth during Oocyst Development in MosquitoesIdentification of three ookinete-specific genes and evaluation of their transmission-blocking potentials in Plasmodium bergheiMotility precedes egress of malaria parasites from oocystsLCCL protein complex formation in Plasmodium is critically dependent on LAP1Paternal effect of the nuclear formin-like protein MISFIT on Plasmodium development in the mosquito vectorGenome-wide RIP-Chip analysis of translational repressor-bound mRNAs in the Plasmodium gametocyteMalaria parasite LIMP protein regulates sporozoite gliding motility and infectivity in mosquito and mammalian hosts.Sexual development in Plasmodium: lessons from functional analysesEffects of MACPF/CDC proteins on lipid membranes.Sex-partitioning of the Plasmodium falciparum stage V gametocyte proteome provides insight into falciparum-specific cell biologyLoss-of-function analyses defines vital and redundant functions of the Plasmodium rhomboid protease family.Target identification and mechanism of action in chemical biology and drug discovery.Changes in the transcriptome of the malaria parasite Plasmodium falciparum during the initial phase of transmission from the human to the mosquito.Plasmodium Cysteine Repeat Modular Proteins 3 and 4 are essential for malaria parasite transmission from the mosquito to the host.Malaria crystalloids: specialized structures for parasite transmission?Discovery of GAMA, a Plasmodium falciparum merozoite micronemal protein, as a novel blood-stage vaccine candidate antigen.The Anopheles-midgut APN1 structure reveals a new malaria transmission-blocking vaccine epitopeConformational co-dependence between Plasmodium berghei LCCL proteins promotes complex formation and stability.Plasmodium falciparum ookinete expression of plasmepsin VII and plasmepsin X.A Toxoplasma gondii Ortholog of Plasmodium GAMA Contributes to Parasite Attachment and Cell Invasion.Maternally supplied S-acyl-transferase is required for crystalloid organelle formation and transmission of the malaria parasite.Reality check for malaria proteomicsHow can we identify parasite genes that underlie antimalarial drug resistance?Gametocytogenesis in malaria parasite: commitment, development and regulation.Plasmodium cell biology should inform strategies used in the development of antimalarial transmission-blocking drugs.
P2860
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P1343
Q24301586-9D5A0696-BCBD-49D9-94E2-AB9392790B9DQ26314428-0DA9248B-553B-4110-B2CA-E17308E73A28Q27342232-4D9F513E-B351-42C2-85DB-5FF8E2AD69FCQ27972592-E8D5E929-CF98-4F68-B05B-C9CB83837357Q27972792-A229CC12-B3DF-424E-91A3-339CBBDC67BBQ27973513-649D69ED-7BA7-4293-8956-E9564DEFED71Q27973701-1B963D3B-C0DD-42B2-AC9C-27DD0D8CACDAQ27974495-854991F7-65DA-430B-88FA-E66EAE87B1EDQ28074078-FB92A1DA-05AE-4D44-AF7D-47DBA746E6C6Q28084219-78F9B767-B3F5-4B48-807D-1143AB611471Q28365035-44B65943-7A68-41D5-A36E-E5AC80E59560Q30041356-DC0A980D-CD22-4712-9280-D5284D54D8AFQ30041843-B6AD0ED9-49EF-479E-8C92-671184BCEA0BQ30041849-4816EF27-F74D-47D5-9896-6509E2AD7009Q30043288-2C487012-E484-4DAB-919F-61DB7DD23FA4Q30043369-E6746912-3527-45E2-A9AC-1DEFB769666DQ30043378-75BBE1E9-0FF7-4F01-8BA6-26F7D5D2A3E2Q30044113-E17A956B-7D65-4F51-B467-61579763D7D8Q30045942-D7610686-542B-4F5B-9EA8-FE430D1F33D5Q30046670-6BC1043D-97D4-452D-A51B-C5221CB721E0Q30048992-14110595-A87D-4C17-BECE-C17273CC21F9Q33708234-743E6ED7-60A1-4195-AAF9-605C45C4DC4CQ34139930-B6367956-F121-4D32-AB48-000B82D5FDC9Q34300045-304AAAA4-7AB6-4D2F-8E96-56A8FC9B165BQ34303401-C5FB71D9-1ED1-4AD2-9E12-195B8ACCFB5CQ34332951-6D49EAEC-9640-42B8-9D24-6B8DDF626E9DQ34626974-B379DC70-D13A-42BC-AA63-D7A7E06F8CECQ34668840-75547FC1-8E38-42D9-AB59-AA0052A1E3DFQ34871838-21229417-942E-44B2-980B-263337507A7DQ35097348-E81FD3AF-7B36-4910-9656-65817A766AE0Q35671610-52164640-2820-4A12-91B7-DCFB0A0697B4Q35989209-CD9F3D8F-1279-4030-9C72-17ACC5F71785Q36323630-60EC8D6A-B880-4457-84FC-8C25A4D75F69Q36611894-AB6DFEA0-59CB-4B2C-BC32-49322B13ECE4Q36891280-AA60F391-3F9E-4574-B654-7029567B502EQ37065092-38340209-48B7-4F5D-8E80-87CDC11E50A9Q37207190-DC69D115-A1A8-43CF-8848-CBEC62CD87F6Q37822758-11C68D5B-219B-46D7-9988-C5DA583A7CDCQ37955953-2C7BC477-243E-46E9-96C8-698D11638BD1Q38066991-9C9B5F29-758A-41F2-9066-9E8BB40566AB
P2860
Reverse genetics screen identifies six proteins important for malaria development in the mosquito
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Reverse genetics screen identi ...... ia development in the mosquito
@ast
Reverse genetics screen identi ...... ia development in the mosquito
@en
type
label
Reverse genetics screen identi ...... ia development in the mosquito
@ast
Reverse genetics screen identi ...... ia development in the mosquito
@en
prefLabel
Reverse genetics screen identi ...... ia development in the mosquito
@ast
Reverse genetics screen identi ...... ia development in the mosquito
@en
P2093
P2860
P921
P3181
P1476
Reverse genetics screen identi ...... ia development in the mosquito
@en
P2093
Andrea Ecker
Ellen S C Bushell
Rita Tewari
Robert E Sinden
P2860
P304
P3181
P356
10.1111/J.1365-2958.2008.06407.X
P407
P577
2008-10-01T00:00:00Z